The exponentially decaying terms in the solution describe what is known as the transient current. The non-decaying terms describe the regular state current.
The exponentially decaying terms in the solution describe what is known as the transient current. The non-decaying terms describe the regular state current.
The current in an electrical circuit consisting of an inductor, resistor and capacitor in collection with an alternating energy supply, is described by the equation
The exponentially decaying terms in the solution describe what is known as the transient current. The non-decaying terms describe the regular state current.
iii) Write down an expression for the regular state current for the solution in half
ii). Why would this expression stay unchanged if the preliminary situations have been completely different?
iv) Categorical the regular state current in the type R sin (20t + ), the place R and are to be decided. Confirm that, after just one second, the magnitude of the transient current is near 1% of the regular state amplitude, R.
The transitory current is described by the exponentially decaying terms in the solution. The regular state current is described by non-decaying phrases.
The transitory current is described by the exponentially decaying terms in the solution. The regular state current is described by non-decaying phrases.
The equation describes the current in an electrical circuit having an inductor, resistor, and capacitor in collection with an alternating energy supply.
The transitory current is described by the exponentially decaying terms in the solution. The regular state current is described by non-decaying phrases.
iii) For the solution in half, write out an expression for the regular state current.
ii) If the starting situations have been completely different, why would this expression stay the identical?
iv) Describe the state of affairs
